BAFF-driven autoimmunity requires CD19 expression.

B cell activating factor of the tumor necrosis factor family (BAFF or BLyS) is a critical factor for B cell survival and maturation. BAFF-transgenic (BAFF-Tg) mice develop autoimmunity that resembles systemic lupus erythematosus (SLE) in a T cell-independent but MyD88-dependent manner, implicating toll-like receptor (TLR) signaling. The specific B cell subtypes that make pro-inflammatory autoantibodies in BAFF-Tg mice are TLR-activated innate B cells known as marginal zone (MZ) and B1 B cells. These cells infiltrate the salivary glands and kidneys of diseased BAFF-Tg mice. However, loss of B1a or MZ B cells does not protect BAFF-Tg mice against disease, suggesting that B1b B cells might be the important pathogenic B cell subset. To test this hypothesis, we have generated BAFF-Tg mice that retained follicular B cells, but are deficient in B1a, B1b and MZ B cells, by crossing BAFF-Tg mice to CD19-deficient mice (BTg-CD19(-/-)). The BTg-CD19(-/-) mice did not produce autoantibodies and were protected from splenomegaly, kidney pathology and all signs of autoimmunity. This work suggests that B1b B cells, rather than MZ or B1a B cells, are sufficient and possibly required for the development of autoimmunity. Loss of the majority of innate-like B cells was able to protect BAFF-Tg mice from developing disease, so we can now conclude that autoimmunity induced by excessive BAFF production requires B1b B cells and CD19 signaling.

Mcl-1 is essential for the survival of plasma cells.

The long-term survival of plasma cells is entirely dependent on signals derived from their environment. These extrinsic factors presumably induce and sustain the expression of antiapoptotic proteins of the Bcl-2 family. It is uncertain whether there is specificity among Bcl-2 family members in the survival of plasma cells and whether their expression is linked to specific extrinsic factors. We found here that deletion of the gene encoding the antiapoptotic protein Mcl-1 in plasma cells resulted in rapid depletion of this population in vivo. Furthermore, we found that the receptor BCMA was needed to establish high expression of Mcl-1 in bone marrow but not spleen plasma cells and that establishing this survival pathway preceded the component of plasma cell differentiation that depends on the transcriptional repressor Blimp-1. Our results identify a critical role for Mcl-1 in the maintenance of plasma cells.

B-cell stage and context-dependent requirements for survival signals from BAFF and the B-cell receptor.

One remarkable feature of the immune system is its capacity to maintain constant numbers of resting immune cells despite the complex nature of signals needed throughout development and maturation. For many years, B-cell survival was thought to rely solely on B-cell receptor (BCR) tonic signals that would trigger necessary basal survival pathways. The discovery of the tumor necrosis factor (TNF)-like ligand BAFF(B-cell activating factor belonging to the TNF family)/BLyS (B-lymphocyte stimulator) changed these views entirely, as BAFF-deficient mice lack most mature B cells, and treatment with BAFF inhibitors leads to their loss, establishing BAFF as an unappreciated key B-cell survival factor. BAFF-mediated survival signals have been mapped and signaling crosstalk with the BCR has been identified, explaining the need for both BCR- and BAFF-mediated signals for B-cell survival. However, this crosstalk only explains how BCR and BAFF signals cooperate to produce survival proteins and yet, inactivating pro-apoptotic factors such as FOXO proteins, which may be managed separately by BAFF and the BCR, has emerged as an equally important step for survival. In this review, we present new views on B-cell survival, at all stages of B-cell life, and suggest that, in most cases, survival results from the production of appropriate survival factors balanced with the adequate and timely degradation of pro-apoptotic proteins.

The effect of functional morphemes on word segmentation in preverbal infants.

This study examines the role of functional morphemes in the earliest stage of lexical development. Recent research showed that prelinguistic infants can perceive functional morphemes. We inquire whether infants use frequent functors to segment potential word forms. French-learning 8-month-olds were familiarized to two utterance types: a novel noun following a functor, and another novel noun following a prosodically matched nonsense functor. After familiarization, infants' segmentation of the two nouns was assessed in a test phase presenting the nouns in isolation. Infants in Experiment 1 showed evidence of using both frequent functors des and mes (as opposed to the nonsense functor kes) to segment the nouns, suggesting also that they had specific representations of the functors. The infrequent functor vos in Experiment 2 did not facilitate segmentation. Frequency is thus a crucial factor. Our findings demonstrate that frequent functors can bootstrap infants into early lexical learning. Furthermore, the effect of functors for initial word segmentation is likely universal.